CN101848341A

CN101848341A - Image-capturing device mounting mechanism and camera head

Info

Publication number: CN101848341A
Application number: CN201010138552A
Authority: CN
Inventors: 箱石隆久
Original assignee: Sony Corp
Current assignee: Sony Corp
Priority date: 2009-03-26
Filing date: 2010-03-19
Publication date: 2010-09-29
Anticipated expiration: 2030-03-19
Also published as: CN101848341B; JP5412913B2; US20100245569A1; JP2010232827A; US8878930B2

Abstract

The invention provides a kind of image-capturing device mounting mechanism and camera head.This image-capturing device mounting mechanism comprises: fixed cell, and it is fixed to building; Main unit with pick-up lens, main unit are installed to fixed cell and unload from fixed cell; First mating part, it is arranged in the main unit, is used for cooperating between the main unit and fixed cell when main unit is installed to fixed cell; And second mating part, it is arranged in the main unit, is used for cooperating between the main unit and fixed cell when first mating part cooperates with standing part.

Description

Image-capturing device mounting mechanism and camera head

Technical field

The present invention relates to a kind of image-capturing device mounting mechanism and camera head.

Background technology

Proposed to be designed to help camera system (to see Japanese unexamined patent No.2003-189138 to the safe camera head that high position (such as ceiling and metope) located is installed and for maintenance it taken off, 2008-92258,2006-208446 and 2001-24915).

Summary of the invention

The camera system that is installed to ceiling or other positions is designed to for the purpose that monitors in wide scope photographs images.These camera systems comprise mechanism's (such as motor) of the angle that is used to change its camera lens.For R and M, camera system need be taken off termly.

Can dismounting although camera system can be designed as, the camera body unit of this camera system can be installed to fixed component on the ceiling in unsettled mode.This unsettled installment state may cause following problem: the incomplete electrical connection between the fixed component on the ceiling and the camera body, perhaps the camera body unit is taken off unintentionally from the fixed component on the ceiling.

Therefore expectation provides a kind of novelty and image-capturing device mounting mechanism and camera head improvement, and the main unit with taking lens can be fixed firmly to the fixed cell that is arranged on ceiling, metope or other positions by it.

Image-capturing device mounting mechanism comprises according to an embodiment of the invention:: fixed cell, it is fixed to building; Main unit with pick-up lens, main unit are installed to fixed cell and unload from fixed cell; First mating part, it is arranged in the main unit, is used for cooperating between the main unit and fixed cell when main unit is installed to fixed cell; And second mating part, it is arranged in the main unit, is used for cooperating between the main unit and fixed cell when first mating part cooperates with standing part.

When first mating part and fixed cell were fitted to each other, second mating part can be pushed by the user, to match with fixed cell.

This image-capturing device mounting mechanism can also comprise the operation part that is used to operate second mating part, and when second mating part and fixed cell were not fitted to each other, operation part was outstanding from the outer surface of main unit.

The releasing of first mating part cooperates the releasing cooperation direction of direction and second mating part can be identical, and removes each other when cooperating at first mating part and fixed cell, and second mating part can be removed each other with fixed cell and cooperate.

This image-capturing device mounting mechanism can also comprise: be arranged on first operation part in the outer surface of main unit, it is used to operate first mating part; And be arranged on second operation part in the outer surface of main unit, and it is used to operate second mating part, and wherein, first operation part is arranged on the below of second operation part.

The area of first operation part in the outer surface of main unit can be greater than the area of second operation part in the outer surface of main unit.

Fixed cell can comprise the part that resets, and it is used in the process that main unit is installed to fixed cell, and second mating part is reset to second mating part and the ill-matched each other position of standing part.

Camera head according to an embodiment of the invention can comprise: fixed cell, and it is fixed to building; Main unit with pick-up lens, main unit are installed to fixed cell and unload from fixed cell; First mating part, it is arranged in the main unit, is used for cooperating between the main unit and fixed cell when main unit is installed to fixed cell; And second mating part, it is arranged in the main unit, cooperating between main unit and the fixed cell when being used for first mating part and cooperating with standing part.

This camera head can also comprise: lockable mechanism, and it is arranged in the main unit, and lockable mechanism comprises first mating part and second mating part; First connector, it is arranged in the standing part, is used to set up being electrically connected between standing part and the main unit; Second connector, it is arranged in the main unit, to be connected to first connector; And circuit board, it is provided with in the main unit and is equipped with second connector thereon, and wherein: main unit forms cylindric; Lockable mechanism partly is arranged on the relative position place of each interval 180 degree on the outer surface of main unit; And second connector with respect to the central axis of cylindrical body unit be arranged on lockable mechanism in one identical position, angle, position, angle.

The card connector that is used to receive WLAN card or memory card can be installed to circuit board, and card connector is orientated as with respect to 90 degree of being separated by of one in the central axis of cylindrical body unit and the lockable mechanism.

According to embodiments of the invention, the main unit with pick-up lens can be fixed firmly to the fixed cell that is arranged on ceiling, metope or other positions.

Description of drawings

Figure 1A shows the unitary construction of monitoring camera device according to an embodiment of the invention briefly to Fig. 1 C;

Fig. 2 A shows briefly to Fig. 2 C the ceiling unit of main unit from monitoring camera device is unloaded;

Fig. 3 shows the structure of the lockable mechanism part that comprises locking button and release-push briefly;

Fig. 4 shows the lockable mechanism part of the direction observation of the arrow IV from Fig. 3 briefly;

Fig. 5 shows the lockable mechanism part of the direction observation of the arrow V from Fig. 3 briefly;

Fig. 6 is the stereogram that shows the hook part that is arranged in the ceiling unit;

Fig. 7 is the stereogram that shows the bottom of lockable mechanism part;

Fig. 8 A and Fig. 8 B show briefly when lockable mechanism and hook part are fitted to each other, and locking shaft is inserted into the opening that passes the hook part;

Fig. 9 A and Fig. 9 B show briefly that locking shaft resets the process that unloads main unit from the ceiling unit from the opening of hook part;

Figure 10 A shows briefly to be positioned under the state that pushes the position at the locking button to Figure 10 C and main unit is installed to the ceiling unit;

Figure 11 shows the trigger mechanism that is arranged in the locking button briefly;

Figure 12 is the vertical view of main unit; And

Figure 13 is the upward view of main unit, lockable mechanism and circuit board.

Embodiment

Will describe the preferred embodiments of the present invention in detail with reference to accompanying drawing now.Assembly with basic identical functional structure is represented by identical Reference numeral and will be omitted description to it.

Will provide explanation in the following sequence:

1. the unitary construction of monitoring camera device

2. the structure of locking mechanism part

3. the structure of locking press button

4. the planar configuration of main unit

1. the unitary construction of monitoring camera device

Figure 1A shows the unitary construction of monitoring camera device 500 according to an embodiment of the invention briefly to Fig. 1 C.Monitoring camera device 500 is installed to any position of building, such as, indoor ceiling and metope.To shown in Fig. 1 C, monitoring camera device 500 comprises ceiling unit 100 and main unit 200 as Figure 1A.

Ceiling unit 100 is fixed to ceiling.Main unit 200 is installed to ceiling unit 100 removably.Main unit 200 comprises camera lens 201, imageing sensor (such as charge coupled device (CCD)) and circuit board.Camera lens 201 is used for photographic images.Imageing sensor obtains by camera lens 201 formed images.Circuit board is handled from the signal of imageing sensor output.Main unit 200 comprises card receiving portions 240, and this card receiving portions 240 is used to receive WLAN card that is used for the WLAN communication or the memory card that is used to write down captured image.

Main unit 200 is configured to be installed on the ceiling unit 100 or in order to safeguard or other purposes and unloading from ceiling unit 100.Figure 1A shows the process that main unit 200 is installed to ceiling unit 100 to Fig. 1 C.Shown in Figure 1A, main unit 200 is being installed in the fitting operation of ceiling unit 100, anti-principal vertical line (safe-catch wire) 202 the end that falls of main unit 200 is fixed to the precalculated position of ceiling unit 100.Ceiling unit 100 is determined with the relative angular position of main unit 200.In order to help the relative angular position between definite ceiling unit 100 and the main unit 200, main unit 200 has the jut hole that a plurality of juts and ceiling unit 100 have the jut that receives main unit 200, will be described this hereinafter.Afterwards main unit 200 is shifted onto in the ceiling unit 100, made the hook part 102 of ceiling unit 100 and the locking plate 214 (hereinafter will be described) of main unit 200 be fitted to each other.In this way, main unit 200 is installed to ceiling unit 100.

Main unit 200 comprises locking button 206.Shown in Figure 1B, in main unit 200 and ceiling unit 100 aligned with each other after, by the user locking button 206 is pushed.Shown in Fig. 1 C, after pushing locking button 206, the fitting operation of monitoring camera device 500 is finished.

Fig. 2 A shows the step that unloads main unit 200 from the ceiling unit 100 of monitoring camera device 500 briefly to Fig. 2 C.In the unloading operation of main unit 200, at first release-push 208 is pushed by the user.After pushing release-push 208, the locking plate 204 of main unit 200 is removed each other with the hook part 102 of ceiling unit 100 and is cooperated (seeing Fig. 2 B, hereinafter will be described).Therefore, main unit 200 can move down shown in Fig. 2 C.To fall anti-principal vertical line 202 afterwards and remove, to finish the unloading operation of main unit 200 from ceiling unit 100 from ceiling unit 100.

2. the structure of lockable mechanism part

Fig. 3 shows the structure of the lockable mechanism part 210 that comprises locking button 206 and release-push 208 briefly.Fig. 3 shows the state that the locking plate 214 of hook part 102 that main unit 200 wherein is installed to ceiling unit 100 and ceiling unit 100 and lockable mechanism part 210 is fitted to each other.Fig. 4 shows the lockable mechanism part 210 of observing from the direction of the arrow IV of Fig. 3 briefly.Fig. 5 shows the lockable mechanism part 210 of observing from the direction of the arrow V of Fig. 3 briefly.Shown in Fig. 2 C, two lockable mechanism parts 210 are arranged on cylinder-shaped body unit 200, around the relative position place of central axis C each interval 180 degree of main unit 200 as Figure 1A.Similarly, shown in Figure 1A, two hook parts 102 are arranged on ceiling unit 100, around the relative position place of central axis C each interval 180 degree of main unit 200, make its position with lockable mechanism part 210 corresponding.

To shown in Figure 5, each lockable mechanism part 210 comprises locking button 206, release-push 208, substrate 212, locking plate 214, axle 216, torsion coil spring 218, locking shaft 220 and axle 222 as Fig. 3.

As shown in Figure 5, when observing from the top, substrate 212 is a U-shaped substantially.Locking plate 214 is arranged between the apparent surface 212a of substrate 212.When observing from the top, locking plate 214 also is U-shaped substantially.Axle 216 is set to pass substrate 212 and locking plate 214.Locking plate 214 can be around axle 216 with respect to substrate 212 rotations.

As shown in Figure 5, axle 216 is arranged in the torsion coil spring 218.Torsion coil spring 218 at one end with the surperficial 214a butt of locking plate 214, and at the surperficial 212b butt of the other end and substrate 212.Torsion coil spring 218 is applied to locking plate 214 with active force, so that the direction of its arrow A 3 in Fig. 3 pivots around axle 216.As shown in Figure 4, locking plate 214 has two opening 214b in the position of locking plate 214 folding 90 degree.

Fig. 6 is the stereogram that is arranged on the hook part 102 in the ceiling unit 100.When observing from the top, hook part 102 is a U-shaped substantially.The main body of hook part 102 is folded, to form two alar part 102a.Each alar part 102a has mating part 102b.Hook part 102 also has inclined surface 102c and inclined surface 102d.Hook part 102 is fixed to ceiling unit 100 under the state of its installation surface 102e and ceiling unit 100 butts.Two hook parts 102 are arranged on ceiling unit 100 under the state in the outside at mating part 102b, around the relative position place of central axis C each interval 180 degree of main unit 200.

As shown in Figure 3, when main unit 200 was installed on the ceiling unit 100, the upper end of the mating part 102b of hook part 102 and the opening 214b of locking plate 214 was against each other.The directive effect locking plate 214 of the arrow A 3 of the active force of torsion coil spring 218 in Fig. 3.The active force of torsion coil spring 218 keeps cooperating between locking plate 214 and the hook part 102 reliably.

Main unit 200 moves to be installed on it towards ceiling 100.Along with main unit 200 moves towards ceiling unit 100, in the upper end and inclined surface 102c butt of locking plate 214, the relative position between locking plate 214 and the hook part 102 changes.Main unit 200 be installed to ceiling unit 100 during, make locking plate 214 against the active force of torsion coil spring 218 along with Fig. 3 in the side of arrow A 3 pivot in the opposite direction.When the mating part 102b of hook part 102 places identical height and position with the upper end of opening 214b, so locking plate 214 is along the direction pivot of arrow A 3.In this way, the alar part 102a of hook part 102 is arranged on the inside of opening 214b, and the mating part 102b of hook part 102 matches with opening 214b.

Fig. 7 is the stereogram of the lower part of lockable mechanism part 210.Release-push 208 is installed to the lower part of locking plate 214.Release-push 208 is made by resin or other materials.As shown in Figure 7, be set to pass two opening 212c that are formed on the substrate 212 from two outstanding protuberance 208a of the dorsal part of release-push 208.Axle 222 is arranged on the office, bottom of locking plate 214.Axle 222 is set to pass the opening 208b that is formed among the ledge 208a.By this structure, locking plate 214 is pivotably connected to release-push 208.

As shown in Figure 7, substrate 212 has installation surface 212e and screwed hole 212d, and substrate 212 is fixed to main unit 200 by installation surface 212e and screwed hole 212d.

With main unit 200 when ceiling unit 100 unloads, the direction of the arrow A 4 in Fig. 3 pushes the release-push 208 of each lockable mechanism part 210.Afterwards, locking plate 214 along with Fig. 3 in the side of arrow A 3 pivot in the opposite direction, and the mating part 102b of hook part 102 removes each other with the upper end of opening 214b and cooperates.So main unit 200 is unloaded from ceiling unit 100.

3. the structure of locking button

Afterwards, structure according to the locking button 206 in the monitoring camera device 500 of present embodiment will be described.Locking button 206 is provided with and is supported in the opening of keeper 224, and wherein keeper 224 is fixed to substrate 212.Locking button 206 can push along the direction of the arrow A among Fig. 35 or reset.Locking button 206 forms with locking shaft 220.As Fig. 4 and shown in Figure 7, locking shaft 220 is set to pass the opening 214c that is formed in the locking plate 214.

As shown in Figure 6, hook part 102 has opening 102f.Opening 102f is formed on when lockable mechanism 210 and hook part 102 are fitted to each other and the corresponding position, position of locking shaft 220.

Fig. 8 A and Fig. 8 B show when lockable mechanism 210 and hook part 102 are fitted to each other locking shaft 220 briefly and insert the opening 102f that passes hook part 102.Fig. 8 A shows the state that mating part 102b that main unit 200 wherein is installed to the opening 214b of ceiling unit 100 and locking plate 214 and hook part 102 is fitted to each other.Under this state, as mentioned above, locking shaft 220 corresponds to each other with the position of opening 102f.

Fig. 8 B shows the state that locking button 206 wherein pushes from the state of Fig. 8 A locking.When locking button 206 was pushed into, the locking shaft 220 that forms with locking button 206 moved, and opening 102f is passed in the insertion of the end of locking shaft 220.Therefore, locking shaft 220 is fitted to each other with opening 102f.

Under the state that locking shaft 220 and opening 102f are fitted to each other, main unit 200 is removed each other under the situation about cooperating with opening 214b at the mating part 102b of hook part 102 and is not unloaded from ceiling unit 100.By this structure, can avoid removing under the situation about cooperating each other against the active force of torsion coil spring 218 with hook part 102 at locking plate 214, unintentionally main unit 200 is removed from ceiling unit 100.

According to present embodiment, ceiling unit 100 is fitted to each other by two different mechanisms with main unit 200: cooperating between the mating part 102b of locking plate 214 and hook part 102; And cooperating between locking shaft 220 and the opening 102f.By this structure, main unit 200 can be connected to each other reliably with ceiling unit 100.

Therefore be not installed to ceiling unit 100 fully and under the mating part 102b and state that opening 214b is not fitted to each other of hook part 102 in main unit 200, because it is aligned with each other that locking shaft 220 and opening 102f also do not have, so locking button 206 can not successfully push.The user can be pushed into the mated condition of the opening 214b of the mating part 102b that confirms hook part 102 and locking plate 214 by checking locking button 206.

When pushing locking button 206, locking button 206 mobile relatively large.When locking button 206 was not pushed into, locking button 206 was outstanding from the outer surface of main unit 200.By from checking the position of locking button 206 in appearance, the user can easily confirm the mated condition of main unit 200 and ceiling unit 100.Because can be from discerning the position of locking button 206 in appearance, so the user confirms the mated condition of main unit 200 and ceiling unit 100 reliably.

Fig. 9 A and Fig. 9 B show briefly with main unit 200 from the process that ceiling unit 100 unloads, locking shaft 220 resets from the opening 102f of hook part 102.Shown in Fig. 9 A, when release-push 208 is pushed into, locking plate 214 with Fig. 3 in the side of arrow A 3 pivot in the opposite direction.Therefore, the opening 214b of locking plate 214 removes at first each other with the mating part 102b of hook part 102 and cooperates.

Locking shaft 220 has the ledge 220a with the surperficial 214a butt of locking plate 214.Ledge 220a further is projected into the top edge top of the opening 102f of hook part 102.When further release-push 208 being pushed, ledge 220a pushed by surperficial 214a and locking shaft 220 (that is, the locking button 206) with Fig. 3 in the side of arrow A 5 move in the opposite direction.In this way, shown in Fig. 9 B, locking shaft 220 is removed each other with opening 102f and is cooperated, and with permission main unit 200 is unloaded from ceiling unit 100.

Hereinafter, the situation that main unit 200 is installed to ceiling unit 100 under the state that locking button 206 has been pushed into has been described.Because only after locking button 206 is pushed, locking shaft 220 just is fitted to each other with opening 102f, if, be necessary to make locking button 206 to turn back to reset position so before main unit 200 is installed to ceiling unit 100, locking button 206 is pushed.In the present embodiment, inclined surface 220b is arranged on the place, end of locking shaft 220, be installed under the situation about being pushed into before the ceiling unit 100 the inclined surface 102d butt of this inclined surface 220b and hook part 102 in main unit 200 at locking button 206.The butt of inclined surface 220b and inclined surface 102d makes locking button 206 turn back to reset position.

Figure 10 A shows briefly to Figure 10 C and is at locking button 206 that main unit 200 is installed to ceiling unit 100 under the state that pushes the position.Shown in Figure 10 A, be formed on locking shaft 220 end place inclined surface 220b at first with the inclined surface 102d butt of hook part 102.Along with main unit 200 moves towards ceiling unit 100, when inclined surface 220b and inclined surface 102b slide over each other, move on the direction of the arrow of locking button 206 in Figure 10 A.Afterwards, locking button 206 returns its reset position.By this structure, the opening 214b of locking plate 214 and the mating part 102b of hook part 102 are fitted to each other, and do not have interference between locking shaft 220 and hook part 102.Push from the state shown in Figure 10 B after the locking button 206, make locking shaft 220 cooperate with opening 102f.

Figure 11 shows the trigger mechanism that is arranged in the locking button 206 briefly.As shown in figure 11, torsion coil spring 228 is connected to locking shaft 220.Torsion coil spring 228 at one end (that is, the strong point 1) locates to be rotatably connected to locking shaft 220, and locates to be rotatably connected to substrate 212 at the other end (that is, the strong point 2).Torsion coil spring 228 is on the direction of upward arrow at the strong point 1 and active force is applied to locking shaft 220, and is at the strong point 2 on the direction of downward arrow active force is applied to substrate 212.Figure 11 shows at the locking button 206 that pushes the place, centre position between position and the reset position.In this state, it is minimum that the distance between the strong point 1 and the strong point 2 becomes, and the active force of torsion coil spring 228 becomes maximum.

The trigger mechanism of this structure that is made of torsion coil spring 228 prevents that locking button 206 from remaining positioned in the place, centre position shown in Figure 11.Therefore, locking button 206 is positioned at and pushes position or reset position place.When the user with locking button 206 when reset position pushes, locking button 206 moves towards pushing the position.After locking button 206 was through the centre position shown in Figure 11, the active force of torsion coil spring 228 acted on the locking shaft 220, pushes the position to be sent to.Therefore, the user can push locking button 206 with the power of minimum.In the reset operation of the locking button 206 that reference Fig. 9 describes to Figure 10 C, after locking shaft 220 was through the centre position shown in Figure 11, the active force of torsion coil spring 228 was delivered to reset position with locking button 206 equally.Therefore, locking button 206 also can move to reset position reliably in reset operation.As mentioned above, because can be by the active force operation locking button 206 of torsion coil spring 228, so the user can push the locking button by less relatively power.On the other hand, when the user operates release-push 208, must push release-push 208 against the active force of torsion coil spring 218.In order to reduce the load of user when pushing release-push 208, in the outer surface of main unit 200, the area design of release-push 208 is the area greater than locking button 206.This structure helps the user against the active force of torsion coil spring 218 release-push 208 to be pushed.

4. the planar configuration of main unit

The planar configuration of main unit 200 hereinafter, will be described.Particularly, for instance, the circuit board and the relation of the position between the lockable mechanism part 210 that are arranged in the main unit 200 will be described.Figure 12 is the vertical view of main unit 200.As shown in figure 12, circuit board 230 is along with the perpendicular direction of the central axis C on cylindrical peripheral surface and be arranged on the main unit 200.Main unit 200 made and is fixed to by circuit board 230 by hardboard.

Circuit board 230 comprises and is used for the connector 232 that is electrically connected with ceiling unit 100.Ceiling unit 100 with corresponding position, the position of connector 232, comprise being used for the connector that is connected with connector 232.When main unit 200 was installed to ceiling unit 100, connector 232 was connected to the connector of ceiling unit 100.Therefore, when main unit 200 is installed to ceiling unit 100, between these unit, set up electrical connection at once.Electrical connection provides power line, audio frequency I/O line, via connection and other lines of the wired lan that transmits video.

Main unit 200 has 100 a plurality of protuberances 226 of giving prominence to towards the ceiling unit.Ceiling unit 100 has the protuberance hole (not shown) that is used to receive these protuberances 226 with corresponding position, the position of protuberance 226.By being arranged on protuberance 226 in the protuberance hole and the bottom butt in the end of protuberance 226 and protuberance hole, make main unit 200 flatly aim at each other, and determine its relative angle position with ceiling unit 100.When the butt of the bottom in the end of protuberance 226 and protuberance hole, main unit 200 is aimed at vertically with ceiling unit 100.Meanwhile, the opening 214b of locking plate 214 matches with auxiliary section 102b.Thus, locking shaft 220 can be inserted and pass opening 102f.

Figure 13 is the upward view of main unit 200, lockable mechanism 210 and circuit board 230.As shown in figure 13, lockable mechanism 210 is fixed to main unit 200 in the following manner.Under the state of the installation surface butt of the installation surface 212e of substrate 212 and main unit 200, screw element 242 is fastened to the installation surface of main unit 200 by screwed hole 212d.As shown in figure 13, electronic unit (such as primary processor 234 and image processing IC 236) is installed on the lower surface of circuit board 230.CF card connector 238 is installed on the circuit board 230.

CF card connector 238 is arranged on the corresponding position, position with the card receiving portions 240 shown in Fig. 1.WLAN card, memory card and other cards insert CF card connector 238.Card receiving portions 240 is arranged in the position corresponding position represented with the arrow A 6 of Figure 13, and with two lockable mechanism parts 210 around central axis C at a distance of 90 degree.By this structure, card receiving portions 240 and lockable mechanism 210 are not interfered on the outer surface of main unit 200 each other.

As shown in figure 12, connector 232 be positioned near the lockable mechanism part 210 the position and around the identical position, angle of lockable mechanism part of central axis C and this 210.By this structure, connector 232 and CF card connector 238 are positioned on the opposite surfaces of circuit board 230, so that there is not interference between them.Also can handle the flexible substrate 244 that is connected to connector 232 with having no problem.

As mentioned above, according to the present invention, the locking plate 214 that is arranged on the lockable mechanism 210 in the main unit 200 matches with the hook part 102 of ceiling unit 100, and locking shaft 220 matches with hook part 102.In this way, main unit 200 is fixed to ceiling unit 100 two different offices, auxiliary section.Therefore, the mating part 102b and the opening 214b that can avoid at hook part 102 remove under the situation about cooperating each other, by mistake main unit 200 are removed from ceiling unit 100.When locking button 206 was not pushed into, locking button 206 was outstanding from the outer surface of main unit 200.Therefore, the user can easily identify locking button 206 from outward appearance and also not be pushed into.When identifying locking button 206 from outward appearance and also be not pushed into, the user pushes locking button 206.In this way, main unit 200 can fully be connected to ceiling unit 100.

The application comprise with the Japanese priority patent application JP 2009-076406 that was submitted to Japan Patent office on March 26th, 2009 in the relevant theme of disclosed theme, and its full content is attached to here by reference.

Though described embodiments of the invention in detail by the reference accompanying drawing,, this description is only for illustrative purpose, and those skilled in the art will know can carry out various changes and modification under the situation that does not exceed the claim scope.These changes and modification should be considered within the scope of the invention.

Claims

1. image-capturing device mounting mechanism comprises:

Fixed cell, it is fixed to building;

Main unit with pick-up lens, described main unit are installed to described fixed cell and unload from described fixed cell;

First mating part, it is arranged in the described main unit, is used for cooperating between the described main unit and described fixed cell when described main unit is installed to described fixed cell; And

Second mating part, it is arranged in the described main unit, is used for cooperating between the described main unit and described fixed cell when described first mating part cooperates with described standing part.

2. image-capturing device mounting mechanism according to claim 1, wherein,

When described first mating part and described fixed cell were fitted to each other, described second mating part was pushed by the user, to cooperate with described fixed cell.

3. image-capturing device mounting mechanism according to claim 1, also comprise the operation part that is used to operate described second mating part, when described second mating part and described fixed cell were not fitted to each other, described operation part was outstanding from the outer surface of described main unit.

4. image-capturing device mounting mechanism according to claim 1, wherein, the releasing of described first mating part cooperates direction to cooperate direction identical with the releasing of described second mating part, and remove each other when cooperating at described first mating part and described fixed cell, described second mating part is removed each other with described fixed cell and is cooperated.

5. image-capturing device mounting mechanism according to claim 1 also comprises:

Be arranged on first operation part in the outer surface of described main unit, it is used to operate described first mating part; And

Be arranged on second operation part in the outer surface of described main unit, it is used to operate described second mating part,

Wherein, described first operation part is arranged on the below of described second operation part.

6. image-capturing device mounting mechanism according to claim 5, wherein, the area of described first operation part in the outer surface of described main unit is greater than the area of described second operation part in the outer surface of described main unit.

7. image-capturing device mounting mechanism according to claim 1, wherein, described fixed cell comprises the part that resets, it is used in the process that described main unit is installed to described fixed cell described second mating part being reset to described second mating part and the ill-matched each other position of described standing part.

8. camera head comprises:

Fixed cell, it is fixed to building;

9. camera head according to claim 8 also comprises:

Lockable mechanism, it is arranged in the described main unit, and described lockable mechanism comprises described first mating part and described second mating part;

First connector, it is arranged in the described standing part, is used to set up being electrically connected between described standing part and the described main unit;

Second connector, it is arranged in the described main unit, to be connected to described first connector; And

Circuit board, it is arranged in the described main unit and described second connector is installed on described circuit board,

Wherein:

Described main unit forms cylindric;

Lockable mechanism is arranged on the relative position place of each interval 180 degree on the outer surface of described main unit; And

Described second connector with respect to the central axis of described cylindrical body unit be arranged on described lockable mechanism in one identical position, angle, position, angle.

10. camera head according to claim 9, wherein, the card connector that is used to receive WLAN card or memory card is installed to described circuit board, and described card connector is orientated as with respect to 90 degree of being separated by of one in the described central axis of described cylindrical body unit and the described lockable mechanism.